Contents

Marine Chassis

Roseobacter clade bacteria - novel chassis for synthetic biology

In consultation with Paola R. Gomez-Pereira of the National Oceanography Centre, Southampton, we identified Oceanibulbus indoliflex and Roseobacter dentitrificans as promising chassis for the expression of our system.

The roseobacter clade bacteria, RCB, constitute a significant proportion of coastal and mixed layer ocean bacterioplankton communities, upwards of 15 and 20% respectively, and are found in a diverse range of marine habitats. RCB demonstrate numerous traits, including aerobic anoxygenic phototrophy, aromatic compound degradation and recycling of sulphur within the water column and have been implicated in carbon monoxide consumption. (Wagner-Döbler & Biebl, et al. 2006). Significantly, in the context of plastic Island, they are shown to be major colonisers of submerged surfaces in marine waters (Dang & Lovell et al. 2002).

Colony Morphology

Oceanibulbus indoliflexon marine agar.

Transformation Protocols

Transformation of Oceanibulbus indoliflex by electroporation.

Electrocompetent cells were prepared according to the following protocol:

45mL Marine Broth was inoculated with 2ml of an overnight culture of OI (in 5ml Marine broth) and grown to approx 0.5 Absorbance at OD 578.

10mL volumes were transferred to 50 mL falcons and cells were sedimented for 15mins at 3200 x g in a pre-chilled centrifuge.

1uL DNA was added to 50uL competent cells to chilled 1mm electrocuvettes, and treated with a field strength of 2.5kV.

1ml marine broth was added to cells and mixtures were transferred to falcons for incubation overnight at room temperature at 200rpm and finally plated on marine agar supplemented with appropriate antibiotics. Incubated at 30˚C for 2 days.

Growth comparison

Growth comparison of Oceanibulbus indoliflex and Escherichia coli in marine and luria broth.
We sought to compare the growth profiles of O. indoliflex and E. coli.